452 строки
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ReStructuredText
452 строки
22 KiB
ReStructuredText
.. SPDX-License-Identifier: (GPL-2.0+ OR CC-BY-4.0)
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.. [see the bottom of this file for redistribution information]
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Reporting regressions
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+++++++++++++++++++++
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"*We don't cause regressions*" is the first rule of Linux kernel development;
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Linux founder and lead developer Linus Torvalds established it himself and
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ensures it's obeyed.
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This document describes what the rule means for users and how the Linux kernel's
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development model ensures to address all reported regressions; aspects relevant
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for kernel developers are left to Documentation/process/handling-regressions.rst.
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The important bits (aka "TL;DR")
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================================
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#. It's a regression if something running fine with one Linux kernel works worse
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or not at all with a newer version. Note, the newer kernel has to be compiled
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using a similar configuration; the detailed explanations below describes this
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and other fine print in more detail.
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#. Report your issue as outlined in Documentation/admin-guide/reporting-issues.rst,
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it already covers all aspects important for regressions and repeated
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below for convenience. Two of them are important: start your report's subject
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with "[REGRESSION]" and CC or forward it to `the regression mailing list
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<https://lore.kernel.org/regressions/>`_ (regressions@lists.linux.dev).
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#. Optional, but recommended: when sending or forwarding your report, make the
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Linux kernel regression tracking bot "regzbot" track the issue by specifying
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when the regression started like this::
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#regzbot introduced v5.13..v5.14-rc1
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All the details on Linux kernel regressions relevant for users
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==============================================================
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The important basics
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--------------------
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What is a "regression" and what is the "no regressions rule"?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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It's a regression if some application or practical use case running fine with
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one Linux kernel works worse or not at all with a newer version compiled using a
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similar configuration. The "no regressions rule" forbids this to take place; if
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it happens by accident, developers that caused it are expected to quickly fix
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the issue.
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It thus is a regression when a WiFi driver from Linux 5.13 works fine, but with
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5.14 doesn't work at all, works significantly slower, or misbehaves somehow.
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It's also a regression if a perfectly working application suddenly shows erratic
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behavior with a newer kernel version; such issues can be caused by changes in
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procfs, sysfs, or one of the many other interfaces Linux provides to userland
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software. But keep in mind, as mentioned earlier: 5.14 in this example needs to
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be built from a configuration similar to the one from 5.13. This can be achieved
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using ``make olddefconfig``, as explained in more detail below.
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Note the "practical use case" in the first sentence of this section: developers
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despite the "no regressions" rule are free to change any aspect of the kernel
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and even APIs or ABIs to userland, as long as no existing application or use
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case breaks.
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Also be aware the "no regressions" rule covers only interfaces the kernel
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provides to the userland. It thus does not apply to kernel-internal interfaces
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like the module API, which some externally developed drivers use to hook into
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the kernel.
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How do I report a regression?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Just report the issue as outlined in
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Documentation/admin-guide/reporting-issues.rst, it already describes the
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important points. The following aspects outlined there are especially relevant
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for regressions:
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* When checking for existing reports to join, also search the `archives of the
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Linux regressions mailing list <https://lore.kernel.org/regressions/>`_ and
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`regzbot's web-interface <https://linux-regtracking.leemhuis.info/regzbot/>`_.
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* Start your report's subject with "[REGRESSION]".
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* In your report, clearly mention the last kernel version that worked fine and
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the first broken one. Ideally try to find the exact change causing the
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regression using a bisection, as explained below in more detail.
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* Remember to let the Linux regressions mailing list
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(regressions@lists.linux.dev) know about your report:
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* If you report the regression by mail, CC the regressions list.
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* If you report your regression to some bug tracker, forward the submitted
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report by mail to the regressions list while CCing the maintainer and the
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mailing list for the subsystem in question.
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If it's a regression within a stable or longterm series (e.g.
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v5.15.3..v5.15.5), remember to CC the `Linux stable mailing list
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<https://lore.kernel.org/stable/>`_ (stable@vger.kernel.org).
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In case you performed a successful bisection, add everyone to the CC the
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culprit's commit message mentions in lines starting with "Signed-off-by:".
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When CCing for forwarding your report to the list, consider directly telling the
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aforementioned Linux kernel regression tracking bot about your report. To do
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that, include a paragraph like this in your mail::
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#regzbot introduced: v5.13..v5.14-rc1
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Regzbot will then consider your mail a report for a regression introduced in the
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specified version range. In above case Linux v5.13 still worked fine and Linux
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v5.14-rc1 was the first version where you encountered the issue. If you
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performed a bisection to find the commit that caused the regression, specify the
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culprit's commit-id instead::
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#regzbot introduced: 1f2e3d4c5d
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Placing such a "regzbot command" is in your interest, as it will ensure the
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report won't fall through the cracks unnoticed. If you omit this, the Linux
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kernel's regressions tracker will take care of telling regzbot about your
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regression, as long as you send a copy to the regressions mailing lists. But the
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regression tracker is just one human which sometimes has to rest or occasionally
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might even enjoy some time away from computers (as crazy as that might sound).
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Relying on this person thus will result in an unnecessary delay before the
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regressions becomes mentioned `on the list of tracked and unresolved Linux
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kernel regressions <https://linux-regtracking.leemhuis.info/regzbot/>`_ and the
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weekly regression reports sent by regzbot. Such delays can result in Linus
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Torvalds being unaware of important regressions when deciding between "continue
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development or call this finished and release the final?".
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Are really all regressions fixed?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Nearly all of them are, as long as the change causing the regression (the
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"culprit commit") is reliably identified. Some regressions can be fixed without
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this, but often it's required.
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Who needs to find the root cause of a regression?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Developers of the affected code area should try to locate the culprit on their
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own. But for them that's often impossible to do with reasonable effort, as quite
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a lot of issues only occur in a particular environment outside the developer's
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reach -- for example, a specific hardware platform, firmware, Linux distro,
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system's configuration, or application. That's why in the end it's often up to
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the reporter to locate the culprit commit; sometimes users might even need to
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run additional tests afterwards to pinpoint the exact root cause. Developers
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should offer advice and reasonably help where they can, to make this process
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relatively easy and achievable for typical users.
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How can I find the culprit?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Perform a bisection, as roughly outlined in
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Documentation/admin-guide/reporting-issues.rst and described in more detail by
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Documentation/admin-guide/bug-bisect.rst. It might sound like a lot of work, but
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in many cases finds the culprit relatively quickly. If it's hard or
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time-consuming to reliably reproduce the issue, consider teaming up with other
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affected users to narrow down the search range together.
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Who can I ask for advice when it comes to regressions?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Send a mail to the regressions mailing list (regressions@lists.linux.dev) while
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CCing the Linux kernel's regression tracker (regressions@leemhuis.info); if the
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issue might better be dealt with in private, feel free to omit the list.
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Additional details about regressions
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------------------------------------
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What is the goal of the "no regressions rule"?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Users should feel safe when updating kernel versions and not have to worry
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something might break. This is in the interest of the kernel developers to make
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updating attractive: they don't want users to stay on stable or longterm Linux
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series that are either abandoned or more than one and a half years old. That's
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in everybody's interest, as `those series might have known bugs, security
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issues, or other problematic aspects already fixed in later versions
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<http://www.kroah.com/log/blog/2018/08/24/what-stable-kernel-should-i-use/>`_.
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Additionally, the kernel developers want to make it simple and appealing for
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users to test the latest pre-release or regular release. That's also in
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everybody's interest, as it's a lot easier to track down and fix problems, if
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they are reported shortly after being introduced.
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Is the "no regressions" rule really adhered in practice?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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It's taken really seriously, as can be seen by many mailing list posts from
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Linux creator and lead developer Linus Torvalds, some of which are quoted in
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Documentation/process/handling-regressions.rst.
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Exceptions to this rule are extremely rare; in the past developers almost always
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turned out to be wrong when they assumed a particular situation was warranting
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an exception.
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Who ensures the "no regressions" is actually followed?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The subsystem maintainers should take care of that, which are watched and
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supported by the tree maintainers -- e.g. Linus Torvalds for mainline and
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Greg Kroah-Hartman et al. for various stable/longterm series.
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All of them are helped by people trying to ensure no regression report falls
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through the cracks. One of them is Thorsten Leemhuis, who's currently acting as
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the Linux kernel's "regressions tracker"; to facilitate this work he relies on
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regzbot, the Linux kernel regression tracking bot. That's why you want to bring
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your report on the radar of these people by CCing or forwarding each report to
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the regressions mailing list, ideally with a "regzbot command" in your mail to
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get it tracked immediately.
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How quickly are regressions normally fixed?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Developers should fix any reported regression as quickly as possible, to provide
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affected users with a solution in a timely manner and prevent more users from
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running into the issue; nevertheless developers need to take enough time and
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care to ensure regression fixes do not cause additional damage.
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The answer thus depends on various factors like the impact of a regression, its
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age, or the Linux series in which it occurs. In the end though, most regressions
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should be fixed within two weeks.
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Is it a regression, if the issue can be avoided by updating some software?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Almost always: yes. If a developer tells you otherwise, ask the regression
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tracker for advice as outlined above.
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Is it a regression, if a newer kernel works slower or consumes more energy?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Yes, but the difference has to be significant. A five percent slow-down in a
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micro-benchmark thus is unlikely to qualify as regression, unless it also
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influences the results of a broad benchmark by more than one percent. If in
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doubt, ask for advice.
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Is it a regression, if an external kernel module breaks when updating Linux?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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No, as the "no regression" rule is about interfaces and services the Linux
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kernel provides to the userland. It thus does not cover building or running
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externally developed kernel modules, as they run in kernel-space and hook into
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the kernel using internal interfaces occasionally changed.
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How are regressions handled that are caused by security fixes?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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In extremely rare situations security issues can't be fixed without causing
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regressions; those fixes are given way, as they are the lesser evil in the end.
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Luckily this middling almost always can be avoided, as key developers for the
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affected area and often Linus Torvalds himself try very hard to fix security
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issues without causing regressions.
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If you nevertheless face such a case, check the mailing list archives if people
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tried their best to avoid the regression. If not, report it; if in doubt, ask
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for advice as outlined above.
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What happens if fixing a regression is impossible without causing another?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Sadly these things happen, but luckily not very often; if they occur, expert
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developers of the affected code area should look into the issue to find a fix
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that avoids regressions or at least their impact. If you run into such a
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situation, do what was outlined already for regressions caused by security
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fixes: check earlier discussions if people already tried their best and ask for
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advice if in doubt.
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A quick note while at it: these situations could be avoided, if people would
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regularly give mainline pre-releases (say v5.15-rc1 or -rc3) from each
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development cycle a test run. This is best explained by imagining a change
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integrated between Linux v5.14 and v5.15-rc1 which causes a regression, but at
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the same time is a hard requirement for some other improvement applied for
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5.15-rc1. All these changes often can simply be reverted and the regression thus
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solved, if someone finds and reports it before 5.15 is released. A few days or
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weeks later this solution can become impossible, as some software might have
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started to rely on aspects introduced by one of the follow-up changes: reverting
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all changes would then cause a regression for users of said software and thus is
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out of the question.
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Is it a regression, if some feature I relied on was removed months ago?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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It is, but often it's hard to fix such regressions due to the aspects outlined
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in the previous section. It hence needs to be dealt with on a case-by-case
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basis. This is another reason why it's in everybody's interest to regularly test
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mainline pre-releases.
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Does the "no regression" rule apply if I seem to be the only affected person?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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It does, but only for practical usage: the Linux developers want to be free to
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remove support for hardware only to be found in attics and museums anymore.
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Note, sometimes regressions can't be avoided to make progress -- and the latter
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is needed to prevent Linux from stagnation. Hence, if only very few users seem
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to be affected by a regression, it for the greater good might be in their and
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everyone else's interest to lettings things pass. Especially if there is an
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easy way to circumvent the regression somehow, for example by updating some
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software or using a kernel parameter created just for this purpose.
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Does the regression rule apply for code in the staging tree as well?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Not according to the `help text for the configuration option covering all
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staging code <https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/drivers/staging/Kconfig>`_,
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which since its early days states::
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Please note that these drivers are under heavy development, may or
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may not work, and may contain userspace interfaces that most likely
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will be changed in the near future.
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The staging developers nevertheless often adhere to the "no regressions" rule,
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but sometimes bend it to make progress. That's for example why some users had to
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deal with (often negligible) regressions when a WiFi driver from the staging
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tree was replaced by a totally different one written from scratch.
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Why do later versions have to be "compiled with a similar configuration"?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Because the Linux kernel developers sometimes integrate changes known to cause
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regressions, but make them optional and disable them in the kernel's default
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configuration. This trick allows progress, as the "no regressions" rule
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otherwise would lead to stagnation.
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Consider for example a new security feature blocking access to some kernel
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interfaces often abused by malware, which at the same time are required to run a
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few rarely used applications. The outlined approach makes both camps happy:
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people using these applications can leave the new security feature off, while
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everyone else can enable it without running into trouble.
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How to create a configuration similar to the one of an older kernel?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Start your machine with a known-good kernel and configure the newer Linux
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version with ``make olddefconfig``. This makes the kernel's build scripts pick
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up the configuration file (the ".config" file) from the running kernel as base
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for the new one you are about to compile; afterwards they set all new
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configuration options to their default value, which should disable new features
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that might cause regressions.
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Can I report a regression I found with pre-compiled vanilla kernels?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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You need to ensure the newer kernel was compiled with a similar configuration
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file as the older one (see above), as those that built them might have enabled
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some known-to-be incompatible feature for the newer kernel. If in doubt, report
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the matter to the kernel's provider and ask for advice.
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More about regression tracking with "regzbot"
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---------------------------------------------
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What is regression tracking and why should I care about it?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Rules like "no regressions" need someone to ensure they are followed, otherwise
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they are broken either accidentally or on purpose. History has shown this to be
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true for Linux kernel development as well. That's why Thorsten Leemhuis, the
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Linux Kernel's regression tracker, and some people try to ensure all regression
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are fixed by keeping an eye on them until they are resolved. Neither of them are
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paid for this, that's why the work is done on a best effort basis.
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Why and how are Linux kernel regressions tracked using a bot?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Tracking regressions completely manually has proven to be quite hard due to the
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distributed and loosely structured nature of Linux kernel development process.
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That's why the Linux kernel's regression tracker developed regzbot to facilitate
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the work, with the long term goal to automate regression tracking as much as
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possible for everyone involved.
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Regzbot works by watching for replies to reports of tracked regressions.
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Additionally, it's looking out for posted or committed patches referencing such
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reports with "Link:" tags; replies to such patch postings are tracked as well.
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Combined this data provides good insights into the current state of the fixing
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process.
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How to see which regressions regzbot tracks currently?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Check out `regzbot's web-interface <https://linux-regtracking.leemhuis.info/regzbot/>`_.
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What kind of issues are supposed to be tracked by regzbot?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The bot is meant to track regressions, hence please don't involve regzbot for
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regular issues. But it's okay for the Linux kernel's regression tracker if you
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involve regzbot to track severe issues, like reports about hangs, corrupted
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data, or internal errors (Panic, Oops, BUG(), warning, ...).
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How to change aspects of a tracked regression?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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By using a 'regzbot command' in a direct or indirect reply to the mail with the
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report. The easiest way to do that: find the report in your "Sent" folder or the
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mailing list archive and reply to it using your mailer's "Reply-all" function.
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In that mail, use one of the following commands in a stand-alone paragraph (IOW:
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use blank lines to separate one or multiple of these commands from the rest of
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the mail's text).
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* Update when the regression started to happen, for example after performing a
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bisection::
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#regzbot introduced: 1f2e3d4c5d
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* Set or update the title::
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#regzbot title: foo
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* Monitor a discussion or bugzilla.kernel.org ticket where additions aspects of
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the issue or a fix are discussed:::
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#regzbot monitor: https://lore.kernel.org/r/30th.anniversary.repost@klaava.Helsinki.FI/
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#regzbot monitor: https://bugzilla.kernel.org/show_bug.cgi?id=123456789
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* Point to a place with further details of interest, like a mailing list post
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or a ticket in a bug tracker that are slightly related, but about a different
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topic::
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#regzbot link: https://bugzilla.kernel.org/show_bug.cgi?id=123456789
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* Mark a regression as invalid::
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#regzbot invalid: wasn't a regression, problem has always existed
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Regzbot supports a few other commands primarily used by developers or people
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tracking regressions. They and more details about the aforementioned regzbot
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commands can be found in the `getting started guide
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<https://gitlab.com/knurd42/regzbot/-/blob/main/docs/getting_started.md>`_ and
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the `reference documentation <https://gitlab.com/knurd42/regzbot/-/blob/main/docs/reference.md>`_
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for regzbot.
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..
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end-of-content
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..
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This text is available under GPL-2.0+ or CC-BY-4.0, as stated at the top
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of the file. If you want to distribute this text under CC-BY-4.0 only,
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please use "The Linux kernel developers" for author attribution and link
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this as source:
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https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/plain/Documentation/admin-guide/reporting-regressions.rst
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..
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Note: Only the content of this RST file as found in the Linux kernel sources
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is available under CC-BY-4.0, as versions of this text that were processed
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(for example by the kernel's build system) might contain content taken from
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files which use a more restrictive license.
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